Selected laser therapy abstracts
from Nov 2004.
The effects of therapeutic lasers in periodontal
inflammation. Swed Den J. Abstract issue, 2003.
Qadri T, Miranda L, Tunér J, Gustafsson A.
The aim of this study was to examine the effects of irradiation
with therapeutic (“low level”) laser or placebo on inflamed
gingival tissue, in a double blind study with control on the same
patient. The test area comprised the teeth 13, 14, 15, 16, 17 and
23, 24, 25, 26, 27, respectively, where one side was treated with
active laser and the other side with a placebo laser. The areas treated
were (1) the buccal papillae with 635 nm during 90 seconds (0, 9 Joule)
and (2) 6 mm further apically with 830 nm during 25 seconds (1, 75
Joules). Each wavelength was used separately. 17 patients were treated,
10 women and 7 men. The laser therapy started one week after scaling
and root planning on both sides and continued once a week for 6 weeks.
The patients were examined before and after treatments. The clinical
parameters were: gingival index (GI), plaque index (PI) and pocket
depth. The study was supported by a quantitative analysis of inflammation
variables in the gingival fluid (GCF). The GCF volume was measured
with a Periotron™ 8000. The elastase activity and the amount
of interleukin-1ß (IL-1ß) and metalloproteinase-8 (MMP-8)
were measured in the GCF. Results: There was a significant pocket
reduction on the laser side as compared to the placebo side: 0.92
vs. 0.16 mm (p=0.001). The remaining clinical variables were also
significantly reduced on the laser side: GI 0.54 vs. 1.4 (p=0.001),
PI 0.26 vs. 0.68 (p=0.01). The GCF volume decreased on the laser side,
– 0.04µl, while it increased on the placebo side, 0.14µl
(p=0.01). The quantity of MMP-8 increased on the placebo side and
was somewhat reduced on laser side (p=0.06). The elastase activity
and the quantity of IL-1ß were, however, the same in both areas.
Conclusion: The additional treatment with low level laser had a positive
effect on the periodontal inflammation.
Gingival healing after gingivectomy
procedure and low intensity laser irradiation. A clinical and biometrical
study in anima nobile.
AMORIM, J. C. F.
2001. Dissertation (Professional Master's Degree "Lasers in Dentistry")
- Nuclear and Energy Research Institute / School of Dentistry, University
of São Paulo, São Paulo. Advisor: Eduardo De Bortoli
Groth, DDS, PhD, Martha Simões Ribeiro, DDS, PhD
For the present study seven patients presenting periodontal disease
were selected in a way that they required the performance of gingivectomy
procedure in the region of premolars in both sides, being this in
the upper or lower region. After the surgical procedure one side was
submitted to low intensity laser radiation, wavelength 685nm, power
50mW and fluency of 4J/cm2, contact mode. The other side was used
as a control, not receiving any laser irradiation. Healing process
for both sides, was clinically and biometrically evaluated and compared
using photographs for the periods: pre-operatory, immediate post-operatory,
3, 7, 14, 21, 28 e 35 days. The analysis was performed by 3 specialists
in Periodontology considering aspects of healing. Results were submitted
to statistical analysis. Biometrical evaluation showed improvement
of healing for the period of 21 and 28 days in the lased group. Clinical
evaluation showed better reparation mainly after the third day for
the active group. Laser group was considered to present an improved
healing when compared to the control group.
Inflammatory process decrease by gallium-aluminium-arsenide
(GaAlAs) low intensity laser irradiation on postoperative extraction
of impacted lower third molar.
ATIHÉ, M. M.
2002. 79f. Dissertation (Professional Master's Degree "Lasers
in Dentistry") - Nuclear and Energy Research Institute / School
of Dentistry, University of São Paulo, São Paulo.
Advisor: Eduardo De Bortoli Groth, DDS, PhD, Martha Simões
Ribeiro, DDS, PhD
This study aimed the observation of inflammatory process decrease
by the use of GaAlAs Low Intensity Laser (? = 830 nm; 40 mW) irradiation.
Five patients were selected and submitted to surgery of impacted lower
third molars, both right and left sides at different occasions. On
a first stage, a tooth of a random chosen side - right or left - was
extracted by conventional surgery, without LILT. The inflammatory
process was measured at postoperative on the first, third and seventh
days. This side was then called "control side". After 21
days, period in which the inflammatory process of the first surgery
was terminated, the other side surgery took place, this time using
LILT (4 J at four spots) at postoperative, first and third days. As
the previous surgery, the inflammatory process was also measured at
postoperative on the first, third and seventh days. This side was
called "experimental or lased side". The inflammatory process
was evaluated by measuring its four characteristic signs: swelling,
pain, colour and temperature. lt was clearly observed a decrease for
swelling, pain and colour on the lased side which presented significant
inference and descriptive statisties. lt can be concluded that GaAlAs
Low Intensity Laser (? = 830 nm) can surely be used as an additional
and important anti-inflammatory source on impacted lower third molar
surgeries.
Histopathological study of
the effects of low-intensity laser irradiation (?=650nm) on dental
pulp tissue after cavity preparation.
BERTELLA, C.
2001. Dissertation (Professional Master's Degree "Lasers in Dentistry")
- Nuclear and Energy Research Institute / School of Dentistry, University
of São Paulo, São Paulo. Advisor: José Luiz Lage
Marques, DDS, PhD, Profa. Dra. Martha Simões Ribeiro, DDS,
PhD
The purpose of this study was to evaluate (in vivo) the effects of
low-intensity Arsenide Gallium Aluminium laser application post-cavity
preparation class I. Six patients with bilateral pre-molars and molars
indicated to extraction for orthodontics aim were selected. Four samples
of these teeth underwent cavity preparation with deep from medium
to high and two samples underwent cavity preparation from high to
pulp expositions. The samples were constituted of two teeth of the
same patient and received different treatments. One of the teeth underwent
laser exposition and the other one was maintained as control, before
restorative procedure with polycarboxilate cement. A diode laser (?=
650nm), output power 30mW and fluencies of 1,8J/cm2 and 2,7J/cm2 in
pre-molars and molars, respectively, was used for irradiation with
repetition rate of 18Hz in interrupted continuous wave mode. After
seven days, the teeth were extracted and processed histologically
with HE to verify morphological changes in the pulpy tissue. The four
samples, which cavity preparation and restorative material were not
in contact with the pulp, did not show histological differences between
irradiated and non-irradiated teeth. Both of them presented the same
characteristics of normality. The two samples with exposed pulpy tissue
showed different results. The irradiated teeth presented no or slight
inflammatory signs when compared to the control samples, which showed
abscess in the coronary pulp interior and intense inflammatory infiltrated.
These results suggest that the laser irradiation can be used as a
therapeutic modality in clinical trials, in the conditions employed
in this study.
Effects of low laser irradiation on the implants
bone integration mechanism: in vivo study.
BLAY, A.
2001. Dissertation (Professional Master's Degree "Lasers in Dentistry")
- Nuclear and Energy Research Institute / School of Dentistry, University
of São Paulo, São Paulo. Advisor: Denise Maria Zezell,
DDS, PhD, Eduardo De Bortoli Groth, DDS, PhD
The purpose of this study is to determine whether the process of bone
integration of implants placed in rabbit tibia is changed in any way
if the region is radiated with laser, as compared to the time required
for the bone integration process without radiation. Thirty adult male
white New Zealand rabbits were submitted to implant surgery, for subsequent
evaluation of the removal torque and resonance frequency. Each animal
received two implants of pure titanium (Frialit-2 - Friadent, Munich
- Germany), one in each proximal metaphysis of the tibia, which were
inserted with a 40 Ncm torque, and their initial stability was also
monitored by means of a resonance frequency analyzer. The rabbits
were then divided into 3 groups: one control group and two laser groups.
The groups were evaluated in regard to removal torque and resonance
frequency of the implants, after 3 and 6 weeks. One of the laser groups
was radiated with a laser beam of a wavelength in the infrared range
(830 nm) and the other group was radiated with a laser beam emitted
in the visible range (680 nm). Ten radiation sessions were performed,
48 hours apart, the first of them during the immediate post-operation
period. Radiation energy density was 4 J/cm2 per point, and there
were two points at each side of the tibia. Results of the statistical
analysis of the resonance frequency indicated that for both laser
groups there was a significant difference between frequency values
at the time of implant and the values obtained after 3 and 6 weeks.
Furthermore, the results obtained for the removal torque of the three
groups showed a statistically significant difference after a period
of 6 weeks; removal torque values for the laser groups were, in the
average, much greater than those of the control group. From these
results it is possible to conclude that implants in rabbit tibia,
that were exposed to laser radiation with wavelengths of 680 nm and
830 nm, had a better degree of bone integration than the control group.
Effects of low-energy laser irradiation on the distalization
velocity during experimental canine tooth movement in humans: ”Comparative
clinical study".
CRUZ, D. R.
2003. Dissertation (Professional Master's Degree "Lasers in Dentistry")
- Nuclear and Energy Research Institute / School of Dentistry, University
of São Paulo, São Paulo. Advisor: Niklaus Ursus Wetter,
DDS, PhD, Edmir Matson, DDS, PhD
This research investigated the effects of low level laser therapy
(LILT) upon the velocity of canine tooth movement and consequently
bone remodelling. A total of eleven patients were treated with a 780
nm diode laser. One side of the upper arcade was considered control
group and was not irradiated but received mechanical activation every
thirty days. The opposite side received the same mechanical activation
but was also irradiated at days 0, 3, 7 and 14 of each month. Data
of the biometrical progress were taken on both sides on days 3, 7,
14, 21 and 30 of each month. The results indicate that all patients
showed significant acceleration of the distalization velocity on the
side treated with LILT when compared to the control.
A radiographic evaluation of bone
repairs in periapical lesions of dental elements submitted to a therapy
with low intensity laser ? = 904 nm. (A study in anima nobile).
SOUSA, G. R.
2001. Dissertation (Professional Master's Degree "Lasers in Dentistry")
- Nuclear and Energy Research Institute / School of Dentistry, University
of São Paulo, São Paulo. Advisor: Eduardo De Bortoli
Groth, DDS, PhD, Martha Simões Ribeiro, DDS, PhD
The purpose of this study was to evaluate a influence of the low intensity
laser in the velocity of bone repairs of the periapical lesions of
dental elements. Fifteen patients with a total of eighteen periapical
lesions were selected and divided into two groups. The lesions of
the control group were submitted to an endodontic treatment and/or
periapical surgery and the lesions of the experimental laser group,
were submitted to the same procedures of the control groups, as well
as to an irradiation with a low intensity laser. The laser used had
904nm wavelength, 11 mW power, an optical fibre delivery system, with
a fluency of 9J/cm2. This treatment was made in 10 sessions (with
no interruption and contact mode), with of 72 hours between each session.
The velocity of bone repair was evaluated through lesion measurements,
wich were taken from the X ray pictures with millimetric screen. /the
images were taken, considering its repair time and were also statically
analyzed. The results obtained through Kruskal-Wallis method showed
significant differences between laser and control groups (p<0,10),
emphasizing that for the laser group there was a significant reduction
of the lesions area, confirmed by X ray.
Evaluation the variation of temperature
in the pulp chamber after irradiation of a diode laser 830nm over
dental enamel: "in vitro" study. 2001.
MACRI, R. T.
Dissertation (Professional Master's Degree "Lasers in Dentistry")
- Nuclear and Energy Research Institute / School of Dentistry, University
of São Paulo, São Paulo.
Advisor: Eduardo De Bortoli Groth, DDS, PhD, Gessé Eduardo
Calvo Nogueira, DDS, PhD
The aim of this study was to observe the variation of temperature
in the pulp chamber caused by irradiation of a commercial diode laser
operating in continuous wave with wavelength 830 nm over the dental
enamel. ln the first part of this study, two types of tooth models
were tested: 3,5 mm slice and whole tooth. In the second part, we
irradiated the buccal side of the enamel in 2 primary lower incisors
from cattle with Opus 10 diode laser for 10 s with power levels of
1 W and 2 W, always using an absorber. Two thermocouples were used.
The first one was inserted in the dentine wall closest to the irradiation
site, while the second was inserted in the middle of the pulp chamber.
lt was observed that the thermocouples registered different temperatures.
Always, the dentin thermocouple registered higher temperatures. Considering
the dentin records, the irradiation of 1W for 10s can be safe for
the pulp. Further studies rnust be developed related to the correct
positioning of the thermocouples inside the pulp chamber. This was
a first step of using diode laser in enamel, and in this study, we
concluded that the Opus 10 diode laser shown to be safe for this use,
with 1W power for 10s.
HeNe laser effects on blood microcirculation
- An in vivo study through laser doppler flowmetry. 2002. 77f.
NÚÑEZ, S. C.
Dissertation (Professional Master's Degree "Lasers in Dentistry")
- Nuclear and Energy Research Institute / School of Dentistry, University
of São Paulo, São Paulo. Advisor: José Luiz Lage-Marques,
DDS, PhD, Gessé Eduardo Calvo Nogueira, DDS, PhD
Blood microcirculation performs an important function in tissue repair
process, as well as in pain control, allowing for greater oxygenation
of the tissues and the accelerated expulsion of metabolic products,
that may be contributing to pain. Low lntensity Laser Therapy (LILT)
is widely used to promote healing, and there is an assumption that
it's rnechanism of action may be due to an enhancement of blood supply.
The purpose of this study was to evaluate, using laser Doppler flowmetry
(LDF), the stated effects caused by radiation emitted by a HeNe laser
(?=632.8nm) on blood microcirculation during tissue repair. To this
end, 15 male mice were selected and received a liquid nitrogen provoked
lesion, above the dorsal region, and blood flow was measured periodically,
during 21 days. Due to radiation emission by the LDF equipment, a
control group was established to evaluate possible effects caused
by this radiation on microcirculation. To evaluate the HeNe laser
effects, a 1.15J/cm2 dose was utilized, with en intensity of 6mW/cm2.
The results obtained demonstrate flow alterations, provoked by the
lesion, and subsequent inflammatory response. There was no statistical
difference between the studied groups. As per the analysis of the
results there is no immediate effect due the radiation emitted by
a HeNe laser on microcirculation, although a percentage increase was
observed in day 7 on medium blood flow rate in irradiated specimens.
New studies are necessary to validate the use of this wavelength,
in order to promote beneficial alterations in blood supply in radiated
areas.
Action of diode laser (830nm) on cutaneous
wound healing process: biometrical and histological study in rats.
2001.
REZENDE, S. B.
Dissertation (Professional Master's Degree "Lasers in Dentistry")
- Nuclear and Energy Research Institute / School of Dentistry, University
of São Paulo, São Paulo. Advisor: Edison Puig Maldonado,
DDS, PhD, Edmir Matson, DDS, PhD
ln this research, it was analyzed the acceleration of the healing
process of cutaneous lesions in mice, using a diode laser emitting
in 830 nm. The 64 selected animals in this study were randomically
divided into four groups of 16 animals each (G1, G2, G3 e G4). Biometric
and histological comparisons were accomplished in the following periods:
3, 7 and 14 days after the surgery and laser application. Three laser
irradiation configurations were used: a punctual contact (G2) and
two non-contact and uniform (G3 and G4). For group G2, the laser intensity
was 428 mW/cm2, and for groups G3 and G4 it was 53 mW/cm2. The total
doses were D = 3 J/cm2 for groups G2 and G4, and D = 1,3 J/cm2 for
G3. The first group, G1, was considered control and thus not submitted
to any treatment after the surgery. All irradiated lesions presented
acceleration of the healing process with regard to the control group.
However, our results clearly indicate that the smaller laser intensity
(uniform irradiation) leaded to the best results. On the other hand,
the smaller used dose also leaded to the more significant and expressive
results. The combination of the intensity value of 53 mW/cm2 and the
dose of 1,3 J/cm2 leaded to optimal results, regarding the biometric
and histological analysis, presenting faster lesion contraction, quicker
neoformation of epithelial and conjunctive tissue (with more collagen
fibres).
Evaluation of effects of laser irradiation therapy (l=830nm)
on oral ulceration induced by
fixed orthodontic appliances. 2001.
RODRIGUES, M. T. J.
Dissertation (Professional Master's Degree "Lasers in Dentistry")
- Nuclear and Energy Research Institute / School of Dentistry, University
of São Paulo, São Paulo.
Advisor: Denise Maria Zezell, DDS, PhD, Eduardo De Bortoli Groth,
DDS, PhD
Twenty patients presenting fixed orthodontic appliance - induced oral
ulceration were randomly chosen for this study. These patients were
then divided into two groups. ln Group,1 the ulceration was submitted
to low intensity infrared laser (?=830nm), at 30 mw fluency per point
1.3 J/cm2 at an exposure time ranging from 3s to 33s, depending on
ulceration size. Ulceration was irradiated on the first day, the process
being repeated 24 and then 48 hours later. Evaluations were made seven
days after the first irradiation. Group 2 comprised of patients who
were exposed to conventional treatment where wax was used to cover
the afflicted area. These patients also took triancinolona. Evaluation
was made on the same day. ln both groups the cause of irritation was
eliminated whenever was possible. Clinical results pointed out that
the healing process was slightly faster in cases of LILT treated oral
ulceration. The latter also presented significant decrease in symptoms
of pain. Comparative statistical evaluation results between both groups
have shown that in the case of Group 1 patients (those submitted to
low-intensity infrared laser beam): 1) Healing process was faster
with reduction of sore areas; 2) immediate relief of pain following
first irradiation, as stated by patients. Taking into consideration
the vast amount of patients who are bearers of fixed orthodontic appliances
and whose most usual and frequent complaint is pain and irritation,
the use of LILT is highly recommended due to its simplicity and efficacy.
Clinical evaluation of the low intensity laser antialgic
action of GaAlAs in the treatment of the
temporomandibular disorders. 2001.
SANSEVERINO, N. T. M.
Dissertation (Professional Master's Degree "Lasers in Dentistry")
- Nuclear and Energy Research Institute / School of Dentistry, University
of São Paulo, São Paulo.
Advisor: Eduardo De Bortoli Groth, DDS, PhD, Martha Simões
Ribeiro, DDS, PhD
The therapy with laser emitting low intensity has been currently used
in the most diverse fields of medicine as therapeutic conduct for
pain. lt is a non-invasive, painless, non-thermal and aseptic type
therapy, without any collateral effects, having a good cost/benefit
relationship. However, for the therapy with low-intensity laser to
result in positive effects, a correct diagnosis is fundamental, as
well as a protocol of adequate application. In odontology, the majority
of patients diagnosed with temporomandibular disorders (TMD), present
pain and limitations in the movements of the jaw. In this work, a
GaAlAs laser emitting low intensity, was used, ?=785nm, in patients
having a dysfunction of the temporomandibular joint with a complaint
of pain. Twenty patients were divided into two groups. The group treated
received laser treatment in the temporomandibular articulations and
in the muscles affected. The dose applied was 45J/cm2, while the ten
patients in the control group received 0J/cm2, in a total of nine
applications, carried out three times a week, during three weeks.
The evaluation of the patients was made through clinical examinations
of manual palpation of the masseter, temporal, cervical, posterior
neck and sternocleidomastoid muscles, and measurements of opening
and laterality of the mouth. The results obtained showed a diminishing
of the pain and an increase of the mandibular mobility in the patients
treated, when compared to the control group. These results point to
this therapy as being an important tool in the treatment of pain in
patients with a dysfunction in the TMJ, indicating this therapeutic
modality as a co-adjuvant in these treatments.
Low-intensity laser coupled with photosensitizer
to reduce bacteria in root canals compared to chemical control. 2002.
91f.
SEGUNDO, A. S. G.
Dissertation (Professional Master's Degree "Lasers in Dentistry")
- Nuclear and Energy Research Institute / School of Dentistry, University
of São Paulo, São Paulo. Advisor: Martha Simões
Ribeiro, DDS, PhD, José Luiz Lage-Marques. DDS, PhD
The photodynamic therapy is a process in which a dye is associated
with an appropriate wavelength of light and this dye goes to an excited
state. The excited photosensitizer reacts with oxygen to form the
highly reactive compound singlet oxygen, and this compound can kill
bacteria and tumor cells. The purpose of this study was to evaluate
the bacterial reduction in root canal contaminated with Enterococcus
Faecalis. Thirty teeth with their root canals prepared were contaminated
with E. faecalis. Ten teeth have received the chemical substance sodium
hypochlorite for 30 minutes; ten teeth have received the azulene dye
paste for 5 minutes and have been irradiated with a diode laser, output
power 10mW and ?= 685nm for 3 minutes. Ten teeth have not received
treatment (control group). The bacterial reduction was significantly
higher for laser group when compared to chemical and control groups.
These results indicate that photodynamic therapy was an effective
method to kill bacteria.
Mast cells behaviour analysis: non mineralized
wall of suprabony periodontal pockets submitted to low intensity laser
radiation. 2001.
SILVEIRA, L. B.
Dissertation (Professional Master's Degree "Lasers in Dentistry")
- Nuclear and Energy Research Institute / School of Dentistry, University
of São Paulo, São Paulo.
Advisor: Eduardo De Bortoli Groth, DDS, PhD, Martha Simões
Ribeiro, DDS, PhD
For this study 20 patients with periodontal disease were selected.
The treatment required for all of then was the gingivectomy, a resective
periodontal surgery. This technique consists of removing the whole
excess of gingival tissue with the intent of reestablishing the anatomy
and the correct function. The gingival area was submitted to 2 different
wavelenghts and then histologically analysed to search for alterations,
mainly concerning mast cells behavior, a blood cell responsible, among
other things, for blood vases enlargement. During the surgical procedure
each gingival area was submitted to infrared low intensity laser ?
= 785 nm ) or to red laser ( ?= 688 nm ), both with 50 mW of power
and fluence of 8 J/cm2. A third area was analysed, the control area,
in which no laser treatment was employed. The samples were fixated
in formol, cut and stained by hematoxiline - eosine and toluidine
blue. Based on the result we can be conclude: 1) The 2 wavelengths
used in this study led to the reduction in the number of mast cells
present in the tissue as well as to the increase on the degranulation
of the remaining mast cells, considered statistically significant
taken the degranulation index and ; 2) There was no significant difference
caused by the action of the two laser wavelengths - ?=785nm and ?=688nm
-50 mW of power and fluence of 8 J/cm2, over the degranulation of
the mast cells; 3) The length and width of the randomly chosen blood
vases were not statistically different among the analysed groups.
Comparative analysis of the
effect of the GaAlAs laser irradiation in 780nm and 660nm in the hypersensitive
dentin. 2003.
YUAN, S. C.
Dissertation (Professional Master's Degree "Lasers in Dentistry")
- Nuclear and Energy Research Institute / School of Dentistry, University
of São Paulo, São Paulo. Advisor: Wagner de Rossi, DDS,
PhD, José Luiz Lage-Marques, DDS, PhD
This study was performed to evaluate and compare the effects of the
low intensity in laser radiation among GaAlAs 780nm and GaAlAs 660nm.
The main proposal is to verify if there is any difference of the effects
or results in low intensity laser application treatment of hypersensitive
dentin, keeping the same parameters, only differing in wavelength.
The samples were distributed in two groups. Group A, 90 cases, treated
with GaAlAs 780 nm and group B irradiated with GaAlAs 660 nm with
a total of 76 cases analyzed. The results of application with GaAlAs
660nm and GaAlAs 780nm don't differ statistically. This means, using
any one of the irradiation gives the same results. However, it can
be noted that the response of reduction of hypersensitivity is faster
with the radiation of GaAlAs 780nm, but the results after three applications
is the same for both types of radiation.
New aug 2004.
Treatment of postmastectomy lymphedema
with low-level laser therapy. A double blind, placebo-controlled trial.
Carati C J, Anderson S N, Gannon B J, Piller N B.
Cancer. 2003; 98 (6): 1114-1122.
Participants in this study received placebo or one cycle or two cycles
of LLLT to the axillary region of their affected arm. They were monitored
for reductions in affected limb volume, upper body extracellular tissue
fluid distribution, dermal tonometry, and range of limb movement.
The study describes the results of a double blind, placebo-controlled,
randomized, single crossover trial of the treatment of patients with
postmastectomy lymphedema (PML) with 904 nm GaAs laser therapy. There
was no significant improvement reported immediately after treatments.
However, the mean affected limb volume was found to be significantly
reduced at 1 month or 3 months of follow-up after 2 cycles of active
laser treatment. Approximately 31% of subjects had a clinically significant
reduction in the volume of their PML-affected arm approximately 2-3
months after 2 cycles of treatment. There was no significant effect
of placebo treatment, or one cycle of laser treatment, on affected
limb volume. The extracellular fluid index of the affected and unaffected
arms and torso were reported to be significantly reduced at 3 months
after 2 cycles of laser therapy, and there was significant softening
of the tissues in the affected upper arm. Treatment did not appear
to improve range of movement of the affected arm.
|
LOW LEVEL LASER ASSISTED LIPOPLASTY,
L.A.L. A NEW TECHNIQUE. NEIRA 4L TECHNIQUE
Rodrigo Neira, C.Ortiz, J.Arroyabe et al.
This study describes the scientific basis for a new lipoplasty technique
based on the use of a low-level energy laser diode beam. A multidisciplinary
team studied fat samples randomly taken from ten patients that underwent
a liposculpture procedure.
Fat samples were processed as follows:
Application of tumescent technique and exposure to laser beam for
4 minutes. Partial disruption of the adipose cell was observed; several
cells without disruption of the cellular membrane were preserved.
The adipose cells lost their round shape, and fat spread into the
intercellular space.
Application of tumescent technique and exposure to laser beam for
6 minutes. Transitory pores were observed in the cell membrane. There
was found microscopic evidence that fat was outside the adipose cells,
and remained in the interstitial space. Structures such as the capillaries
and the remaining interstitial space, were however preserved.
Without the use of tumescent solution, in vitro exposure of adipose
tissue to laser beam for 4, and 6 minutes was performed and compared
with samples without laser exposure (Zero minutes). Laser penetration
through adipose tissue decreased when the tumescent solution was not
utilized. The Scanning and Transmission Electron Microscopic findings
after six minutes laser exposure without the use of tumescent solution
correspond to those observed at 4 min. laser exposure by equal intensity
(10 mW) combined with the use of a tumescent solution, suggesting
that the application of the tumescent solution is a important enhancement
factor. Adypocite cultures confirmed what is happening with the adipose
cell after irradiating it with the laser beam. These cells remain
alive in spite of the membrane deformation generated by the exposure
to the laser beam for 6 minutes
LOW – LEVEL- LASER THERAPY IN MILD AND MODERATE
CTS – A DOUBLE BLIND, RANDOMISED STUDY
Th. Rappl, Ch. Laback, St Quasthoff, M. Auer-Grumbach, R. Gumpert,
E. Scharnagl
The aim was to evaluate the LLLT in CTS (ENG: < 6,9 ms) monitored
by EMG and VAS (Visual Analogous Scale) recordings. 72 hands with
CTS treated by LLLT (15 sessions/30 min, over a period of 5 weeks)
were evaluated by a double blind – randomised study. ENG and
VAS (visual analogous scale) were performed pror to and after LLLT.
LLLT (wavelength 830 nm, 400 mW) with an energy of 3J per point focused
on the Carpal – tunnel, on trigger and acupuncture – points
was performed in 38 cases, in 38 cases (control – group) we
used a red light pen. Follow-up ranged from 8 to 12 months. ENG and
VAS improved in 66%, didn’t change in 8% and got worse in 26%
in the LLLT group after a 12 month period. No improvement was recorded
in the control group. The results suggest that LLLT can be recommended
in mild or average CTS (ENG < 4,9 ms) especially if a conservative
treatment is required.
THE EFFECT OF LOW POWER LASER THERAPY ON OSTEOARTHRITIS
OF THE KNEE
Basirnia A., Sadeghipoor G., Esmaeeli Djavid G. et al.
Treatment was performed on 20 patients, aging from 42 to 60 years.
All patients had received conservative treatment with poor results.
Laser device used for this treatment was pulsed IR diode laser; 810
nm wavelength once per day for 5 consecutive days, followed by a 2-day
interval .The total number of applications was 12 sessions. Irradiation
was performed on 5 periarticular tender points, each for 2 min. The
treatment outcome (pain relief and functional ability) was observed
and measured according to the following methods: 1) Numerical rating
scales (NRS), 2) Self assessment by the patient, 3) Index of severity
for osteoarthritis of the knee (ISK), 4) Analgesic requirements. We
achieved significant improvement in pain relief and quality of life
in 70% of patients, comparing to their previous status (p<0.05).
There was no significant change in range of motion of the Knee.
THE USE OF LOW LEVEL LASER THERAPY (LLLT) IN THE
TREATMENT OF TRIGGER POINTS THAT ARE ASSOCIATED WITH ROTATOR CUFF
TENDONITIS.
Al-Shenqiti, J Oldham
60 patients were randomly allocated to either sham or laser therapy.
The active laser parameters included a wavelength 820 nm, power output
100 mW, frequency 5000 Hz (modulated) and energy density 32 J/cm2.
12 treatments were given over four weeks. The blinded outcome measures
were pain, range of motion (ROM), functional activities and pressure
pain threshold (PPT). Outcome measures were carried out pre and post
treatment, then 3 months later. Considerable improvement in pain (p
< 0.001) was seen for the laser compared to sham group post treatment,
and at follow-up (6 points on a 10 VAS compared to 2 points respectively).
Similarly, significant differences in favour of laser were seen for
ROM (p < 0.01), functional activities (p < 0.001) and PPT (p
< 0.05).
THE INFLUENCE OF LOW LEVEL INFRA RED LASER
THERAPY ON THE REGENERATION OF CARTILAGE TISSUE
P.Lievens , Ph.van der Veen
This study concerns the influence of Laser treatment on the regeneration
process of cartilage tissue. There is no need saying that the regeneration
of cartilage tissue is a very big problem in rheumatic diseases for
example. The lack of blood supply is one of the most important factors
involved. Lots of previous publications give us proof of the regeneration
capacities of Laser therapy (in wound healing, bone repair etc.)
In this study we have chosen to experiment on cartilage tissue of
the ear of mice. We are aware of the fact that the elastic cartilage
tissue of the ear is not totally comparable with the hyaline cartilage
of articulations. For technical reasons however and because of the
fact that the chondrocytes are comparable, we decided to use mice
ears in our experiment. A 0,4 mm hole was drilled in both ears on
30 mice. The right ears remain untreated, while the left ears were
treated daily with IR-Laser (904 nm) for 3 minutes. Macroscopical
as well as histological evaluations were performed on the cartilage
regeneration of both ears.
Our results show that after one day postsurgery no differences were
found between the irradiated and the non-irradiated group. After the
second day, only in the irradiated group there is a clear activation
of the perichondrium. After four days, there is a significant ingrowth
of the perichondrium into the drill hole in the experimental group
and there is only an active perichondrium zone in our control group.
THE INFLUENCE OF IR-LASER ON THE PROLIFERATION
OF FIBROBLASTS: AN IN-VITRO STUDY
Ph.van der Veen, Y de Rop, P. Lievens
To control the reproductability, the inter-and intra reliability,
we cultivated cells coming from the abdomen of two different (NMRI)
mice and we divided 4 groups per mouse. Two were irradiated, two were
not. Then we did a BrdU-labeling with 4 flasks (2 were irradiated,
2 were control). Differences between the experimental and control
groups were examined by means of a t-test and a non-parametric Mann-Whitney
test. The results show a significant (p<0,05) increase of fibroblasts
proliferation after IR-irradiation. The BrdU-labeling showed an increased
DNA activity. There is also a perfect match between the increased
number of fibroblasts and the DNA activity.
PHOTOBIOMODULATION OF HUMAN
T-LYMPHOCYTE PROLIFERATION IN VITRO
M Dyson, A Agaiby, L Ghali
The biomodulatory action of low level laser therapy (LLLT) on human
T-lymphocyte proliferation was investigated in vitro at energy densities
ranging from 1.2 to 13.2 J/cm2. The wavelength, pulsing frequency
and power output were maintained constant at 820 nm, 5000Hz and 50
mW respectively. The T-lymphocytes used in these experiments were
separated from human peripheral blood; monocytes obtained from the
same blood samples were added to suspensions of the T-lymphocytes
to induce proliferation. Cell suspensions of 106 cells/ml were divided
into 2 aliquots, one of which was treated with the mitogen phytohaemagglutin
(PHA). The mitogen treated and non-mitogen treated cells were either
exposed to coherent infrared radiation or were sham-irradiated. The
cells were then cultured for 3 days after which their ability to incorporate
3H-thymidine was used as a measure of proliferation. Exposure of non-mitogen
treated T-lymphocytes to energy densities of either 1.2 or 3.6 J/cm2
stimulated their proliferation, whereas energy densities of 10.8 and
13.2 J/cm2 were inhibitory. In contrast, the proliferation of the
mitogen treated T-lymphocytes was inhibited by all the energy densities
tested in the 1.2 to 13.2 J/cm2 range. The results indicate that the
sensitivity of these cells to LLLT varies according to their proliferative
level, only non-mitogen treated cells being capable of increased proliferation.
Although cell proliferation can be increased in non-mitogen treated
(i.e. resting) T-lymphocytes by exposure to low energy densities,
there appears to be an energy density limit above which inhibition
of cell proliferation occurs. Cells whose mitotic activity had been
stimulated by PHA had their proliferation inhibited by energy densities,
which stimulated proliferation in resting cells. If the photobiomodulation
of T-lymphocyte proliferation observed in vitro also occurs in vivo,
then LLLT could be of clinical value in the treatment of various lymphoproliferative
disorders.
AN IN VITRO STUDY OF THE EFFECTS OF LOW-LEVEL LASER RADIATION
ON HUMAN BLOOD
Dan G. Siposan
In the last time the study of the effects of Low-Level Laser Radiation
(LLLR) on the blood is considered to be a subject of great importance
in elucidating the mechanisms of action between LLLR and biologic
tissues. Different methods of blood phototherapy have been developed
and used in clinical purposes with benefic effects. This study investigates
some in Vitro effects of LLLR on some selected rheologic indices of
human blood. After establishing whether or not damaging effects could
appear due to laser irradiation of the blood, we tried to find a new
method for rejuvenating the blood preserved in haemonetics-type bags.
Blood samples were obtained from adult regular donors (volunteers).
HeNe laser and laser diodes were used as radiation source, in a wide
range of wavelengths, power densities, doses and other parameters
of irradiation protocol. In the first series of experiments we established
that LLLR does not alter the fresh blood from healthy donors, for
doses between 0 and 10 J/cm3 and power densities between 30 and 180
mW/cm3. In the second series of experiments we established that LLLR
does have, in some specific conditions, a revitalizing effect on the
erythrocytes in preserved blood. We concluded that laser irradiation
of the preserved blood, following a selected protocol of irradiation,
could be used as a new method to improve the performances of preservation:
prolonging the period of storage and blood rejuvenation before transfusion.
SEM AND AFM STUDIES OF RAT INJURED TIBIAE AFTER
HeNe RADIATION.
Cruz-Höfling A, Garavello Freitas Z, Baranauskas I B.
Atomic Force Microscopy (AFM) and Scanning Electron Microscopy (SEM)
were used to quantify bone morphology during post-injury ossification
in rat tibiae and characterise the differences induced by laser compared
with the naturally occurring regenerative process. A 1.5 diameter
hole was done surgically in the tibia and two different doses of laser
were applied during 7 or 14 consecutive days, starting 24 hrs after
lesion. The collagen fibre lamellar organisation in the matrix, typical
of mature bone, was promoted by the HeNe laser at doses of either
31.5 J/cm2 or 94.5 J/cm2.
LLLT ON DAMAGED MUSCLE CAUSED BY BOTHROPS
MOOJENI SNAKE VENOM.
Dourado DM, Cruz-Höfling MA.
The venom of the bothrops moojeni snake was injected into the gastrocnemius
of mice to mimic the effect of a snakebite. Traditional therapies
for this snakebite have proven less effective. Three groups were tested:
A=saline, B=venom and C=venom+ laser. Two sessions of HeNe laser at
4 J/cm2 during 1 m 32 s were administered and the animals were sacrificed
at 24 h, 3 d and 7 d, respectively. The analysis showed myonecrosis
with inflammation and an extensive area of degenerated fibres. In
the laser group there was, by day 3, an incipient number of regenerating
fibres. Laser accelerated the phagocytisis of fibre remnants and recovery
of the tissue, decreasing the oedema and increasing regeneration.
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| 21 new studies added June 2003
A systematic review of low level laser therapy
with location-specific doses for pain from chronic joint disorders.
Australian J Physiother. 2003; 49: 107-116. Bjordal J M, Couppè,
C, Chow R, Tunér J, Ljunggren A E.
The authors investigated if low level laser therapy of the joint capsule
can reduce pain in chronic joint disorders (CJD). A literature search
identified 88 randomised-controlled trials, of which 20 trials included
patients with CJD. Six trials had to be excluded for not irradiating
the joint capsule. Three trials used doses lower than a denominated
a priori dose range for reducing inflammation in the joint capsule.
These trials found no significant difference between active and placebo
treatments. The remaining 11 trials, including 565 patients, were
of acceptable methodological quality with an average PEDro score of
6.9 (range 5-9). In these trials, LLLT within the suggested dose-range
was administered to the knee, temporomandibular and zygapophyseal
joints. The results showed a mean weighted difference in change of
pain on VAS by 45.6 % (95 % CI 35.0 to 56.2) in favour of LLLT. Global
status was improved for 33.4 % (95% CI 20.9 to 45.9) more patients
in the LLLT group. LLLT with the suggested dose range significantly
reduces pain in CJD, but the heterogeneity in patient samples, treatment
procedures and trial design calls for cautious interpretation of the
results.
A histopathological study of the effects
of low-power laser irradiation on wound healing of exposed dental
pulp tissues in dogs, with special reference to lectins and collagens.
J Endod. 1998; (3):187-193. Utsunomiya T
This study investigated the effects of low-power laser irradiation
on exposed pulp tissue in dogs. GaAlAs laser (300 mW) irradiation
was applied to the exposed surface of the pulp, and histopathological
changes were observed at 1, 3, and 7 wk after the operation. In addition,
the lectin, binding pattern and distribution of collagens (type I,
III, and V) were examined to determine the histochemical and immunohistochemical
nature of wound healing. The fibrous matrix formation and the continuing
changes in the dentin bridge formation of the irradiation group were
observed earlier (1 wk after the operation) than in the nonirradiation
control group. Lectin histochemistry and collagen immunohistochemistry
showed that concanavalin A, peanut agglutinin, wheat germ agglutinin,
and collagens (types I, III, and V) were distributed in the fibrous
matrix and dentin bridge. The expression of these lectins and collagens
occurred earlier in the laser irradiation group than in the control
group. These results suggest that laser irradiation accelerates wound
healing of the pulp and the expression of the lectins and collagens.
Furthermore, D-glucose-, D-mannose-, N-acetyl-D-galactosamine-, and
N-acetyl-neuraminic acid-binding sugars and type I, III, and V collagens
play an important role in the healing of pulp wounds.
Low-energy laser irradiation stimulates
bone nodule formation at early stages of cell culture in rat calvarial
cells.
Bone. 1998; 22 (4): 347-354. Ozawa Y; Shimizu N; Kariya G; Abiko Y
To determine the target cells responsible for the action of laser
irradiation and roles of irradiation on these cells during bone formation,
we investigated the effects of low-energy laser irradiation at various
cell culture stages on cellular proliferation, bone nodule formation,
alkaline phosphatase activity, and osteocalcin gene expression, employing
rat calvarial cells. Osteoblast-like cells isolated from fetal rat
calvariae were irradiated once with a low-energy Ga-Al-As laser (830
nm, 500 mW) at various cell culture stages (days 1-16). Laser irradiation
at early stages of culture significantly stimulated cellular proliferation,
ALP activity, and osteocalcin gene expression thereafter. Furthermore,
laser irradiation at earlier stages of culture significantly stimulated
a greater number (1.7-fold) and larger area (3.4-fold) of bone nodules
that had developed in the culture dish on day 21. However, these effects
could not be found by irradiation at a later date. These results suggest
that laser irradiation may play two principal roles in stimulating
bone formation. One is stimulation of cellular proliferation, especially
proliferation of nodule-forming cells of osteoblast lineage, and the
other is stimulation of cellular differentiation, especially to committed
precursors, resulting in an increase in the number of more differentiated
osteoblastic cells and an increase in bone formation. Both bone-formation-stimulating
roles may be exhibited by laser irradiation to immature cells only.
Rapid healing of gingival incisions
by the helium-neon diode laser.
J Mass Dent Soc. 1999; 48 (1):8-13. Neiburger E J
Fifty-eight extraction patients had one of two gingival flap incisions
lased with a 1.4 mW helium-neon (670 nm) diode laser for 30 seconds
(fluence = 0.34 J/cm2). Healing rates were evaluated clinically and
photographically. Sixty-nine percent of the irradiated incisions healed
faster than the control incisions. No significant difference in healing
was noted when patients were compared by age, gender, race, and anatomic
location of the incision. This study concludes that helium-neon diode
lasers, at the previously mentioned energy level, increase the rate
of gingival wound healing in 69 percent of patients, without any side
effects. For the last 30 years, low-power lasers in dentistry have
appeared to stimulate healing rates and increase the rate of repair
of injured tissue. Helium-neon and similar lasers emit light in the
red (600-700 nm) spectrums and produce energy densities (fluences)
below 20 Joules/cm2. They have been studied in a variety of animal
tissue culture and human evaluations to determine their ability to
increase the rates of wound healing by biostimulation. Over the last
three decades, researchers have found that ruby and gas helium-neon
(low-power laser radiation) have a biostimulatory effect on living
tissue. Studies show that under specific conditions, red spectrum
laser light speeds the healing of wounds. Photons from the red light
lasers, which include ruby lasers (694 nm), helium-neon gas lasers
(632 nm), and helium-neon diode lasers (650-670 nm), appear to stimulate
rapid epithelialization and fibroblast (collagen) proliferation in
animal and human tissue cultures. Low-power lasers have been reported
to reduce post-extraction pain and swelling and to increase rates
of wound healing (including scar formation, phagocytosis) in cell
culture, animal, and human clinical studies. The new, compact, and
inexpensive (under $50) helium-neon diode lasers have produced similar
effects. These FDA Class IIIa lasers have no hazards associated with
them, although one should avoid direct exposure to the eye for a prolonged
period of time. In the past, many biostimulation studies using red
spectrum lasers produced confusing data and conflicting results. Some
studies reported that the biostimulation effect did not occur in all
cases of laser irradiation, while other research reported that it
did. Results seem to depend on the delivery of appropriate energy
fluence levels (between 1 and 20 J/cm2) and the type of laser (wavelength)
used. Several of these studies never described the levels of laser
energy used to promote the described biostimulatory results. This
caused controversy when determining whether or not helium-neon lasers
influence wound healing. Studies suggest that low-power laser exposure
can significantly increase the healing rate during the first few days
of the healing process; however, studies do not show appreciable net
benefit as compared to controls toward the end of a two-week wound
repair cycle. The increased healing effect appears to be centered
around the early, most sensitive stages of the healing process. Several
studies showed optimum tissue healing rates at helium-neon laser exposure
levels between 1 J/cm2 and 20 J/cm2. Laser-enhanced biostimulation
has been reported to produce metabolic changes within the cells. This
results in faster cell division, rapid matrix production (increased
collagen, myofibroblasts, etc.), and cell movement. There have been
few controlled studies using adequate numbers of human subjects in
identifying the beneficial effects of helium-neon laser biostimulation.
Ethical concerns, bulky equipment, and problems with biased study
designs have frustrated a practical evaluation of laser biostimulation
for general dental practice. A recently published "preliminary"
study involving 52 patients was designed to reduce these issues. The
purpose of this study is to complement the above research and to evaluate
whether helium-neon diode laser radiation at average fluences of 0.34
J/cm2.
Editorial comment: There is no such thing as a “helium-neon
diode laser” but a diode InPhGaAl laser.
Effect of laser irradiation on the
growth and development of fetal mouse limbs in an in vitro model.
Lasers Surg Med. 1999; 24 (4): 285-295. Thawer HA; Houghton PE
The purpose of the present study was to examine the effects of laser
irradiation on the growth and development of fetal limb tissue. Day
14 fetal mouse limbs (n=168) were irradiated with gallium arsenide
laser (904 nm, spot size=0.002 cm2, pulse duration=200 nanoseconds,
peak power=30 mW) for 1 minute each day while being maintained in
an organ culture system for 3 or 5 days at the following energy densities
[O (control), 0.23, 1.37, 2.75, 3.66, and 4.58 J/cm2]. Computer image
analysis of photographic images showed that there was a significant
inhibition of new tissue growth after administration of lower energy
densities of laser (0.23 and 1.37 J/cm2). These low-energy densities
of laser irradiation also produced increased dermal cell number and
collagen fibre thickness as assessed with qualitative histologic analysis
of limb development by a blinded observer. Quantitative analysis of
collagen distribution by colour densitometric analysis of tissue sections
stained with sirus red and fast green confirmed that there was a significantly
greater amount of collagen present in the dermis of limbs treated
with low-energy densities of laser (0.23 and 1.37 J/cm2). Laser irradiation
directly affected the growth and development of day 14 fetal mouse
limbs in an organ culture system.
Effect of low-power laser irradiation
on impulse conduction in anesthetized rabbits.
J Clin Laser Med Surg 1996; 14 (3):107-109. Kasai S; Kono T; Yamamoto
Y; Kotani H; Sakamoto T; Mito M
Low-power laser analgesic effect was generally accepted in clinical
cases, whereas there was no direct evidence to indicate that low-power
laser irradiation suppressed an impulse conduction within a peripheral
nerve. The effect of low-power laser irradiation on electrically evoked
responses within the sural nerve was electrophysiologically analyzed
in anesthetized rabbits. High threshold evoked responses (conduction
velocity was about 11 m/sec, unmyelinated A delta), which were induced
by an electrical stimulation to the peripheral stump of the nerve,
were significantly suppressed (9 to 19% inhibition) during low-power
laser irradiation, which applied to the exposed sural nerve between
the stimulus site and the recording site. The suppressive effect was
reversible and recovered to the control level after the irradiation.
Experimental evidence indicated that low-power laser irradiation suppressed
the impulse conduction of unmyelinated A delta afferents in peripheral
sensory nerve, which caused a pain sensation. These data suggest that
low-power laser acts as a reversible direct suppressor of neuronal
activity.
Laser modulation of angiogenic factor
production by T-lymphocytes.
Lasers Surg Med. 2000; 26 (4): 357-363.Agaiby AD; Ghali LR; Wilson
R; Dyson M
In previous investigations, small variations in the energy densities
of low level light therapy (LLLT) were found to produce significant
differences in the proliferation of resting T-lymphocytes in vitro.
Pulsing these cells with mitogen in addition to laser therapy produced
inhibitory effects regardless of the amplitude of the energy density
used. In the current study, the effect of LLLT on the production of
angiogenic factor(s) by T-lymphocytes was investigated in vitro.:
Human T-cells isolated from peripheral blood were prepared in suspension
either with or without addition of mitogen. Cell suspensions were
irradiated with laser by using the following energy densities: 1.2,
3.6, 6.0, and 8.4 J/cm2 .Wavelength, pulsing frequency, and power
output were kept constant at 820 nm, 5,000 Hz, and 50 mW, respectively.
After either 3 or 5 days of incubation, lymphocyte supernatants were
collected and added as conditioned media to cultured endothelial cells
(ECs). The effect on the proliferation of these ECs was assessed over
a 72-hour period by using a methylene blue assay.: Endothelial cell
proliferation increased significantly when incubated with conditioned
media collected from resting T-cells exposed to 1.2 and 3.6 J/cm2
Day 5 conditioned media produced similar patterns of EC proliferation
to that of day 3 but at lower magnitude. Pulsing of T-lymphocytes
with mitogen in addition to laser irradiation significantly lessened
their angiogenic capability. Conditioned media from 3.6 J/cm2 laser-treated
T-cells induced the maximal EC proliferation in all groups studied.
It would seem that laser therapy stimulates lymphocytes to produce
factor(s) that can modulate EC proliferation in vitro; this effect
on the lymphocytes is influenced by (1) the amplitude of energy density
used for T-cell irradiation, (2) exposing T-cells to both mitogen
and laser, and (3) the duration of T-cell incubation in culture
Laser irradiation abates neuronal
responses to nociceptive stimulation of rat-paw skin.
Brain Res Bull. 1994; 34 (4): 369-374. Tsuchiya K; Kawatani M; Takeshige
C; Matsumoto I
The effects of diode laser irradiation on peripheral nerves was examined
by monitoring neuronal discharges elicited by application of various
stimuli to the hind-paw skin of rats. Neuronal discharges elicited
by brush, pinch, cold, and/or heat stimulation, as well as chemical
stimulation by injection of turpentine (0.1 ml, SC) were recorded
from L5 dorsal roots in urethane-anaesthetised rats. Diode laser irradiation
(830 nm, 40 mW, 3 min, continuous wave) of the saphenous nerve exposed
from the muscle of the lower leg significantly inhibited neuronal
discharges elicited by pinch (68.4 +/- 6.5%), cold (45.4 +/- 9.2%),
and heat stimulation (49.2 +/- 11.3%). Neuronal discharges induced
by brush stimulation (104.3 +/- 4.7%) were not affected by laser irradiation.
Injection of turpentine, a chemical irritant, into the hind-paw skin
(0.1 ml, SC) elicited neuronal discharges in the ipsilateral dorsal
root, and these discharges were significantly inhibited or abolished
by laser irradiation. In 6- to 7-week-old rats treated neonatally
with capsaicin (10 mg/kg, SC), injection of turpentine into the hind-paw
skin did not elicit neuronal discharges and laser irradiation did
not affect the background discharges. These data suggest that laser
irradiation may selectively inhibit nociceptive neuronal activities.
Cranial irradiation with GaAlAs laser
leads to naloxone reversible analgesia in rats.
Psychol Rep. 1996; 78 (3): 727-731. Wedlock P M; Shephard R A.
Laser irradiation of the rat cranium can produce analgesia. The present
experiment investigated the mechanism of such action. 27 rats received
all possible combinations of laser (0, 6.4, and 12J/cm2) and naloxone
(0, 5, and 10 mg/kg) prior to a hot plate test. Laser (820 nm, 1000
Hz pulsing, was applied to the rats' skulls and hind paw lick latencies
(in seconds) were recorded immediately, 30 min., and 24 hr. after
the administration of treatment. When animals were tested immediately
following laser irradiation at 12J/cm2 significant analgesia resulted.
Treatment with naloxone at either dose antagonised this effect, but
naloxone produced no significant hyperalgesia when given alone. This
suggests that opioid peptide mechanisms mediate the analgesic action
of low-intensity laser irradiation of the cranium.
[The mechanisms of action of extracorporeal
helium-neon laser irradiation in acute exogenous poisonings]
Anesteziol Reanimatol. 1997; (4): 33-35. Nemtsev I Z; Luzhnikov E
A; Lapshin V P; Gol'dfarb I S; Badalian A V.
Extracorporeal exposure to HeNe laser of 12 mW power was used in 57
patients hospitalised at the intoxication reanimation department with
acute poisonings with psychotropic drugs. The clinical result was
a decrease of the incidence of pneumonia in the patients with x-ray
signs of venous congestion from 52% among those administered to physiochemotherapy
to 24% after this treatment modality. Laser hemotherapy brought about
a temporary normalization of the erythrocyte membrane permeability,
which was changed biophysically by means of a diffractometer. Red
cell aggregation was approximating the norm, decreasing by 20%, and
platelet aggregation decreased by 17%. Analysis of the results brought
as to a conclusion that He-Ne laser exposure is an effective source
of singlet stimulation of molecular O2 evenly dissolved in the blood,
which causes resonance oscillations of water difields. This leads
to membrane depolarization, which is probably responsible for purification
of polarised membranes from toxic agents fixed by them.
Physical and Occupational Therapy
in Geriatrics.
2000. 18 (2): 1-19. Verdote Robertson R, Munchua M M, Reddon J R.
The effect of low intensity laser therapy (LILT) biostimulation on
wound healing in a largely psychogeriatric population was assessed
over a period of 6 years (1991-1996). In total, 84 psychiatric patients
were referred for the treatment of open wounds of varying severity
and etiology. The wound status, nutritional status, walking status,
and psychiatric condition of each patient were assessed prior to the
administration of laser therapy treatment. Traditional wound care
management was also used in addition to laser therapy. According to
laser therapy treatment protocol for open wounds, a single diode laser
probe was used for biostimulation of the wound bed and the wound periphery.
Pre- and post-treatment measurements of wound size were obtained periodically
for a total of 188 open wounds. 84% of these wounds completely healed,
11.2% partially healed, 2.1% did not change, and 2.7% got worse. The
number of treatments for the 158 completely healed wounds ranged from
3 to 133 (mean 18.5) and the treatment period ranged from 5 to 383
days (mean 47.7). Wound healing was found to be related to nutritional
status but neither walking status nor wound size. Results indicate
that LILT is effective in the treatment of open wounds when it is
used as a component of a total wound management program. Implications
and directions for future research are discussed.
[Efficiency of low-intensity laser
radiation in essential hypertension].
{Klin Med(Mosk). 2001; 79 (1): 41-44. Velizhanina I A, Gapon L I,
Shabalina M S, Kamalova N N.
In a placebo-controlled study an antihypertensive activity of low-
intensive laser radiation (LILR) was evaluated in 52 males with essential
hypertension stage I. The placebo group consisted of 14 matched patients.
LILR was used as monotherapy of 10 daily procedures. This treatment
significantly lowered systolic, diastolic and mean arterial pressure.
Moreover, diastolic arterial pressure did not rise high at submaximal
bicycle exercise. Total peripheral vascular resistance also decreased.
A good hypotensive effect was achieved in 90.4% cases. Thus, LILR
is a highly effective treatment in essential hypertension stage I.
Fat liquefaction: effect of low-level
laser energy on adipose tissue.
Neira R, Arroyave J, Ramirez H, Ortiz et al. Plast Reconstr Surg 2002
Sep 110:912-922.
Low-level laser energy has been increasingly used in the treatment
of a broad range of conditions and has improved wound healing, reduced
edema, and relieved pain of various etiologies. This study examined
whether 635-nm low-level lasers had an effect on adipose tissue in
vivo and the procedural implementation of lipoplasty/liposuction techniques.
The experiment investigated the effect of 635-nm, 10-mW diode laser
radiation with exclusive energy dispersing optics. Total energy values
of 1.2 J/cm(2), 2.4 J/cm(2), and 3.6 J/cm(2) were applied on human
adipose tissue taken from lipectomy samples of 12 healthy women. The
tissue samples were irradiated for 0, 2, 4, and 6 minutes with and
without tumescent solution and were studied using the protocols of
transmission electron microscopy and scanning electron microscopy.
Nonirradiated tissue samples were taken for reference. More than 180
images were recorded and professionally evaluated. All microscopic
results showed that without laser exposure the normal adipose tissue
appeared as a grape-shaped node. After 4 minutes of laser exposure,
80 percent of the fat was released from the adipose cells; at 6 minutes
of laser exposure, 99 percent of the fat was released from the adipocyte.
The released fat was collected in the interstitial space. Transmission
electron microscopic images of the adipose tissue taken at x60,000
showed a transitory pore and complete deflation of the adipocytes.
The low-level laser energy affected the adipose cell by causing a
transitory pore in the cell membrane to open, which permitted the
fat content to go from inside to outside the cell. The cells in the
interstitial space and the capillaries remained intact. Low-level
laser-assisted lipoplasty has a significant impact on the procedural
implementation of lipoplasty techniques.
Double-blind, randomised, placebo
controlled low level laser therapy study in patients with primary
Raynaud's phenomenon.
Hirschl M, Katzenschlager R, Ammer K et al. Vasa 2002 May 31:91-4
No causal treatment of primary Raynaud's phenomenon is available due
to its unclear aetiology. Low level laser therapy (LLLT) is applied
in a multitude of medical conditions often without sufficient evidence
of efficacy and established mechanisms. To asses the effect of this
therapy in patients with primary Raynaud's phenomenon a randomised,
double blind, placebo controlled cross over study was designed.: Absolute
and relative frequency and intensity of vasospastic attacks during
three weeks of either LLLT or placebo therapy and results of infrared
thermography before onset and at the end of both therapy sequences
were evaluated in 15 patients with primary Raynaud's phenomenon. RESULTS:
Frequency of Raynaud's attacks was not significantly affected by low
level laser therapy. Compared to placebo a significantly lower intensity
of attacks during laser irradiation was observed, but no transfer
effect occurred. Additionally the mean temperature gradient after
cold exposure was reduced after laser irradiation, while the number
of fingers showing prolonged rewarming was unaffected. Though further
studies are necessary to confirm these results we could demonstrate
for the first time in a double blind placebo controlled clinical trial
that low laser therapy is a potential candidate for an effective therapy
of Raynaud's phenomenon, although effects seem to be of short duration.
Low level 809-nm diode laser-induced
in vitro stimulation of the proliferation of human gingival fibroblasts.
Kreisler M, Christoffers AB, Al-Haj H, Willershausen B, d'Hoedt B.
Lasers Surg Med; 2002 30: 365-369.
The authors investigated the effects of low level laser irradiation
on the proliferation rate of human gingival fibroblasts (HGF) in vitro.
HGF were obtained from gingival connective tissue explants and cultured
under standard conditions. 110 cell cultures in their logarithmic
growth phase were spread on 96-well tissue culture plates and were
irradiated at energy fluences of 1.96-7.84 J/cm(2). Another 110 cultures
served as control. An 809-nm semiconductor laser operated at a power
output of 10 mW in the cw-mode was used. The time of exposure varied
between 75 and 300 seconds. Laser treatment was performed alternatively
once, twice, and three times at a 24-hour interval. After lasing,
incubation was continued for 24 hours. The proliferation rate was
determined by means of fluorescence activity of a redox indicator
added to the cell culture. Proliferation was determined 24, 48, and
72 hours after irradiation and expressed in relative fluorescence
units (RFU). The irradiated cells revealed a considerably higher proliferation
activity. The differences were highly significant 24 hour after irradiation
(Mann-Whitney U-test, P < 0.05) but decreased in an energy-dependent
manner after 48 and 72 hour after irradiation. A cellular effect of
the soft laser irradiation on HGF is evident. Its duration, however,
seems to be limited. These findings might be clinically relevant,
indicating that repeated treatments are necessary to achieve a positive
laser effect in clinical applications.
Low-level laser effect on neural
regeneration in Gore-Tex tubes.
Miloro M, Halkias LE, Mallery S, Travers S, Rashid RG. Oral Radiol
Endod 2002 Jan 93:27-34
The purpose of this investigation was to determine the effects of
low-level laser (LLL) irradiation on neural regeneration in surgically
created defects in the rabbit inferior alveolar nerve. Five adult
female New Zealand White rabbits underwent bilateral exposure of the
inferior alveolar nerve. A 6-mm segment of nerve was resected, and
the nerve gap was repaired via entubulation by using a Gore-Tex conduit.
The experimental side received 10 postoperative LLL treatments with
a 70-mW gallium-aluminum-arsenide diode at 4 sites per treatment.
At 15 weeks after surgery, the nerve segments were harvested bilaterally
and prepared for light microscopy. Basic fuchsin and toluidine blue
were used to highlight myelinated axons. The segments were examined
histomorphometrically by using computer analysis to determine mean
axonal diameter, total fascicular surface area, and axonal density
along the repair sites. Gross examination of all nerves showed intact
neural bundles with variable degrees of osseous remodeling. Light
microscopic evaluation revealed organized regenerated neural tissue
in both groups with more intrafascicular perineural tissue in the
control group. Histomorphometric evaluation revealed increased axonal
density in the laser treated group as compared with the control.
Computerized morphometric assessment
of the effect of low-level laser therapy on bone repair: an experimental
animal study.
Silva Júnior AN, Pinheiro AL, Oliveira MG, Weismann R, Ramalho
LM, Nicolau RA. J Clin Laser Med Surg. 2002; 20: 83-87
The aim of this study was to evaluate morphometrically the amount
of newly formed bone after GaAlAs laser irradiation of surgical wounds
created in the femur of rats. Low-level laser therapy (LLLT) has been
used in several medical specialties because of its biomodulatory effects
on different biological tissues. However, LLLT is still controversial
because of contradictory reports. This is a direct result of the different
methodologies used in these works. In this study, 40 Wistar rats were
divided into four groups of 10 animals each: group A (12 sessions,
4.8 J/cm2 per session, observation time of 28 days); group C (three
sessions, 4.8 J/cm2 per session, observation time of 7 days). Groups
B and D acted as nonirradiated controls. The specimens were routinely
processed to wax and cut at 6-microm thickness and stained with H&E.
For computerized morphometry, Imagelab software was used. RESULTS:
Computerized morphometry showed a significant difference between the
areas of mineralized bone in groups C and D (p = 0.017). There was
no difference between groups A and B (28 days; p = 0.383).
Effects of near-infrared low-level
laser irradiation on microcirculation.
Maegawa Y, Itoh T, Hosokawa T, Yaegashi K, Nishi M. Lasers Surg Med.
2000; 27:427-437.
The present study was conducted to explore the effects of LLLI on
microcirculation. We investigated the effects of LLLI on rat mesenteric
microcirculation in vivo, and on cytosolic calcium concentration ([Ca2+]i)
in rat vascular smooth muscle cells (VSMCs) in vitro. LLLI caused
potent dilation in the laser-irradiated arteriole, which led to marked
increases in the arteriolar blood flow. The changes were partly attenuated
in the initial phase by the superfusion of 15 microM L-NAME, but they
were not affected by local denervation. Furthermore, LLLI caused a
power-dependent decrease in [Ca2+]i in VSMCs. The circulatory changes
observed seemed to be mediated largely by LLLI-induced reduction of
[Ca2+]i in VSMCs, in addition to the involvement of NO in the initial
phase.
Therapeutic low energy laser improves
the mechanical strength of repairing medial collateral ligament.
Fung DT, Ng GY, Leung MC, Tay DK. Lasers Surg Med. 2002; 31:91-96.
Twenty-four rats received surgical transection to their right MCL
and eight received sham operation. After surgery, 16 received a single
dose of gallium aluminum arsenide laser to their transected MCL for
7.5 minutes (n = 8) or 15 minutes (n = 8) and eight served as control
with placebo laser, while the sham group didn't receive any treatment.
The MCLs were biomechanically tested at either 3 or 6 weeks post-operation.
The normalized ultimate tensile strength (UTS) and stiffness of laser
and sham groups were larger than control (P < 0.001). The UTS of
laser and sham groups were comparable. Laser and sham groups had improved
in stiffness from 3 to 6 weeks (P < 0.001). A single dose of low
energy laser therapy improves the UTS and stiffness of repairing MCL
at 3 and 6 weeks after injury.
Impact of low level laser irradiation
on infarct size in the rat following myocardial infarction.
Ad N, Oron U. Int J Cardiol. 2001; 80:109-116.
The effect of LLLI on the development of acute myocardial infarction
(MI) was investigated following chronic ligation of the left anterior
descending (LAD) coronary artery in laboratory rats. The hearts of
22 rats were laser irradiated (LI) using a diode laser (804 nm, 38
mW power output) through the intercostal muscles in the chest following
MI and on day 3 post MI. In the control non laser irradiated (NLI)
group (19 rats) MI was induced experimentally and laser irradiation
was not applied. All rats were sacrificed 21 days post MI. Size, thickness
and relative circumferential length of the infarct, as well as other
parameters, were determined from histological sections stained with
Masson's trichrome and hearts stained with triphenyl tetrazolium chloride
(TTC) using histomorphometric methods. The infarct size (expressed
as percent of total left ventricle area) of the LI rats was 10.1+/-5.8,
which was significantly lower (65%; P<0.01) than the infarct size
of NLI rats which was 28.7+/-9.6. Correlatively, the ratio of circumferential
length of the infarcted area was significantly lower (2-fold; P<0.01)
in the LI rats as compared to the NLI rats. LLLI of the infarcted
area in the myocardium of experimentally induced MI rats, at the correct
energy, duration and timing, markedly reduces the loss of myocardial
tissue. This phenomenon may have an important beneficial effect on
patients after acute MI or ischemic heart disease
Treatment of anogenital warts by
pulsed dye laser.
Tuncel A, Görgü M, Ayhan M, Deren O, Erdogan B. Dermatol
Surg. 2002; 28: 350-352.
To study the treatment of persistent anogenital warts by pulsed dye
laser a pulsed dye laser was used with the following settings: spot
size 7 mm, pulse duration 1500 microsec, and fluence 7.5 J/cm2. Two
different wavelengths were used: 585 and 595 nm. Lesions healed completely
using both wavelengths after one treatment. Pulsed dye laser has been
found to be safe, effective, satisfactory, and less traumatic compared
to other options for treatment of perianal warts in children.
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